A strategy for fabrication of electroactive nanocomposites with nanoscale organization, based on self-assembly is reported. Gold nanoparticles are assembled by a polypeptide folding-dependent bridging. The polypeptides are further utilized to recruit and associate with a water soluble conducting polymer. The polymer is homogenously incorporated into the nanocomposite, forming conducting pathways which makes the composite material highly conducting
Electrically-conducting polymers (CPs) were first developed as a revolutionary class of organic comp...
Precisely positioning and assembling nanoparticles (NPs) into hierarchical nanostructures is opening...
Abstract: The merging of biotechnology and nanotechnology has led to intense research on nanomateria...
A strategy for fabrication of electroactive nanocomposites with nanoscale organization, based on sel...
Gold nanoparticle–polymer composites are versatile and diverse functional materials, with applicatio...
Materials with nanoscale dimensions display electronic, photonic, and magnetic properties different ...
The self-assembly of nanoparticles is an efficient and precise method to fabricate nanoscale devices...
Today’s lithographic techniques for carving silicon into circuit patterns are unable to achieve the ...
Nanotechnology promises to revolutionize the way we think about, but more importantly create new mat...
We demonstrate a universal approach to assemble gold nanoparticles (AuNPs) into ordered robust nanos...
The ability to construct functional polymeric hybrid nanomaterials is critically important for many ...
The ability to construct functional polymeric hybrid nanomaterials is critically important for many ...
Conductive, biocompatible materials, such as conductive polymers (CPs), hold a great deal of promise...
The negative differential resistance (NDR) effect observed in conducting polymer/Au nanoparticle com...
Inter-polymer complexes of conducting polymers between polyelectrolytes and conducting polymers are ...
Electrically-conducting polymers (CPs) were first developed as a revolutionary class of organic comp...
Precisely positioning and assembling nanoparticles (NPs) into hierarchical nanostructures is opening...
Abstract: The merging of biotechnology and nanotechnology has led to intense research on nanomateria...
A strategy for fabrication of electroactive nanocomposites with nanoscale organization, based on sel...
Gold nanoparticle–polymer composites are versatile and diverse functional materials, with applicatio...
Materials with nanoscale dimensions display electronic, photonic, and magnetic properties different ...
The self-assembly of nanoparticles is an efficient and precise method to fabricate nanoscale devices...
Today’s lithographic techniques for carving silicon into circuit patterns are unable to achieve the ...
Nanotechnology promises to revolutionize the way we think about, but more importantly create new mat...
We demonstrate a universal approach to assemble gold nanoparticles (AuNPs) into ordered robust nanos...
The ability to construct functional polymeric hybrid nanomaterials is critically important for many ...
The ability to construct functional polymeric hybrid nanomaterials is critically important for many ...
Conductive, biocompatible materials, such as conductive polymers (CPs), hold a great deal of promise...
The negative differential resistance (NDR) effect observed in conducting polymer/Au nanoparticle com...
Inter-polymer complexes of conducting polymers between polyelectrolytes and conducting polymers are ...
Electrically-conducting polymers (CPs) were first developed as a revolutionary class of organic comp...
Precisely positioning and assembling nanoparticles (NPs) into hierarchical nanostructures is opening...
Abstract: The merging of biotechnology and nanotechnology has led to intense research on nanomateria...
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